The new NFB boxer pumps feature two heads driven by a single motor, creating unique advantages for OEM design engineers. In parallel connected mode, the alternating operations of the pump heads result in a smooth, even flow. This reduces the need to install additional components to minimize pulsation. Operating in individual mode, two different liquids can be simultaneously transported, negating the need for a second pump. Consequently, both modes offer cost-saving potential.
Both the NF 5 and NF 25 provide compact design, offering ideal flexibility for engineers who face the challenge of integrating pumps into often-shrinking designs. Driven by adjustable speed brushless DC motors, the pumps offer simple flow rate regulation, helping to reduce lengthy testing, while improving time to market.Using KNF’s well-proven diaphragm technology, the NF line of pumps transport the medium very gently, benefiting sensitive fluids handling. Additionally, flow path materials are available to handle chemically-aggressive fluids. With diaphragm technology, there is also no contamination from particles shed through abrasion, unlike, for example, with gear pumps. At atmospheric pressure the NFB 5 delivers 5 – 50 mL/min per head; the NFB 25 provides 50 – 300 mL/min per head. The maximum permissible pressure for continuous operation is 15 psig. Both pumps can operated at a maximum 9 ft. water of suction height.
NFB pumps provide a good size/performance ratio, with a long service life. To learn more about the new NFB pumps, please visit www.knfusa.com/boxer.
About KNF Neuberger
Located in Trenton, NJ, KNF Neuberger, Inc. is a leader in precision air, liquid and gas pumps and systems for the OEM, laboratory and process industries. Built upon a foundation of engineer-to-engineer collaboration, KNF’s OEM team combines technical expertise and manufacturing leadership to address application-specific challenges for an ever-growing list of markets that include printing, medical, environmental, laboratory, security, semiconductor, and fuel cells. For more information, visit or .